Wikipedia

Science publishing has opened up during the coronavirus pandemic. It won’t be easy to keep it that way

Director, AOASG

Image from Shutterstock (The Conversation)

This article by Virginia Barbour from Queensland University of Technology  was originally published in The Conversation on 28 July, 2020

Scientific publishing is not known for moving rapidly. In normal times, publishing new research can take months, if not years. Researchers prepare a first version of a paper on new findings and submit it to a journal, where it is often rejected, before being resubmitted to another journal, peer-reviewed, revised and, eventually, hopefully published.

All scientists are familiar with the process, but few love it or the time it takes. And even after all this effort – for which neither the authors, the peer reviewers, nor most journal editors, are paid – most research papers end up locked away behind expensive journal paywalls. They can only be read by those with access to funds or to institutions that can afford subscriptions.

What we can learn from SARS

The business-as-usual publishing process is poorly equipped to handle a fast-moving emergency. In the 2003 SARS outbreaks in Hong Kong and Toronto, for example, only 22% of the epidemiological studies on SARS were even submitted to journals during the outbreak. Worse, only 8% were accepted by journals and 7% published before the crisis was over.

Fortunately, SARS was contained in a few months, but perhaps it could have been contained even quicker with better sharing of research.

Fast-forward to the COVID-19 pandemic, and the situation could not be more different. A highly infectious virus spreading across the globe has made rapid sharing of research vital. In many ways, the publishing rulebook has been thrown out the window.


Read more:
The hunt for a coronavirus cure is showing how science can change for the better

Preprints and journals

In this medical emergency, the first versions of papers (preprints) are being submitted onto preprint servers such as medRxiv and bioRxiv and made openly available within a day or two of submission. These preprints (now almost 7,000 papers on just these two sites) are being downloaded millions of times throughout the world.

However, exposing scientific content to the public before it has been peer-reviewed by experts increases the risk it will be misunderstood. Researchers need to engage with the public to improve understanding of how scientific knowledge evolves and to provide ways to question scientific information constructively.


Read more:
Researchers use ‘pre-prints’ to share coronavirus results quickly. But that can backfire

Traditional journals have also changed their practices. Many have made research relating to the pandemic immediately available, although some have specified the content will be locked back up once the pandemic is over. For example, a website of freely available COVID-19 research set up by major publisher Elsevier states:

These permissions are granted for free by Elsevier for as long as the Elsevier COVID-19 resource centre remains active.

Publication at journals has also sped up, though it cannot compare with the phenomenal speed of preprint servers. Interestingly, it seems posting a preprint speeds up the peer-review process when the paper is ultimately submitted to a journal.

Open data

What else has changed in the pandemic? What has become clear is the power of aggregation of research. A notable initiative is the COVID-19 Open Research Dataset (CORD-19), a huge, freely available public dataset of research (now more than 130,000 articles) whose development was led by the US White House Office of Science and Technology Policy.

Researchers can not only read this research but also reuse it, which is essential to make the most of the research. The reuse is made possible by two specific technologies: permanent unique identifiers to keep track of research papers, and machine-readable conditions (licences) on the research papers, which specify how that research can be used and reused.

These are Creative Commons licences like those that cover projects such as Wikipedia and The Conversation, and they are vital for maximising reuse. Often the reading and reuse is done now at least in a first scan by machines, and research that is not marked as being available for use and reuse may not even be seen, let alone used.

What has also become important is the need to provide access to data behind the research papers. In a fast-moving field of research not every paper receives detailed scrutiny (especially of underlying data) before publication – but making the data available ensures claims can be validated.

If the data can’t be validated, the research should be treated with extreme caution – as happened to a swiftly retracted paper about the effects of hydroxychloroquine published by The Lancet in May.


Read more:
Not just available, but also useful: we must keep pushing to improve open access to research

Overnight changes, decades in the making

While opening up research literature during the pandemic may seem to have happened virtually overnight, these changes have been decades in the making. There were systems and processes in place developed over many years that could be activated when the need arose.

The international licences were developed by the Creative Commons project, which began in 2001. Advocates have been challenging the dominance of commercial journal subscription models since the early 2000s, and open access journals and other publishing routes have been growing globally since then.

Even preprints are not new. Although more recently platforms for preprints have been growing across many disciplines, their origin is in physics back in 1991.

Lessons from the pandemic

So where does publishing go after the pandemic? As in many areas of our lives, there are some positives to take forward from what became a necessity in the pandemic.

The problem with publishing during the 2003 SARS emergency wasn’t the fault of the journals – the system was not in place then for mass, rapid open publishing. As an editor at The Lancet at the time, I vividly remember we simply could not publish or even meaningfully process every paper we received.

But now, almost 20 years later, the tools are in place and this pandemic has made a compelling case for open publishing. Though there are initiatives ongoing across the globe, there is still a lack of coordinated, long term, high-level commitment and investment, especially by governments, to support key open policies and infrastructure.

We are not out of this pandemic yet, and we know that there are even bigger challenges in the form of climate change around the corner. Making it the default that research is open so it can be built on is a crucial step to ensure we can address these problems collaboratively.The Conversation

Virginia Barbour, Director, Australasian Open Access Strategy Group, Queensland University of Technology

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Imagine a World where Everyone Added One More Reference to Wikipedia

Director, AOASG

The AOASG is a big supporter of Wikipedia.  As one of the world’s largest open access initiatives why wouldn’t we?  We want to make it even better and you can help by taking part in #1lib1ref which kicks off today and runs until 5 February.  While the campaign is targeted at librarians we think everyone who cares about open access should have a go!

 

Here’s how you can help in five easy steps, thanks to the Wikipedia Library 

  1. Find an article that needs a citation. There are many ways to do this. Here are some strategies.
  2. Find a reliable source that can support that article
  3. Add a citation using Wikipedia Style. Click here to learn about adding citations and editing Wikipedia
  4. Add the project hashtag #1lib1ref in the Wikipedia Edit Summary
  5. Share your edit on social media and learn more about libraries and WikipediaGrab a userbox for your user page if you’re into that sort of thing.

Open access medical content and the world’s largest encyclopedia

Director, AOASG

Authors & Wikipedians: Thomas Shafee, Diptanshu Das, James Heilman & Gwinyai Masukume

Wikipedia aims to make a free and accessible summary of all human knowledge and is therefore one of the most well known open access efforts. The cumulative efforts of its volunteer writers (Wikipedians) has resulted in it dwarfing all previous encyclopedias in scope and depth. Additional collaborations with members of the open access community are taking this further. Many of these ideas are globally relevant, however a number of initiatives exist in Australia and New Zealand. A pair of recent papers in Science and JECH make the case that there has never been a better time to help shape the world’s most-read information source.

An open access encyclopedia

A few decades ago, an encyclopedia was a luxury that few could afford. Now, all with Internet access have free access to an encyclopedia larger than could fit in most homes, if printed. Wikipedia is extensively used by the general public, as well as doctors, medical students, lawmakers, and educators.

Indeed, it’s the primary free information source in many countries, especially for biomedical content. For example, during the 2014 Ebola outbreak, the rapid updating and translation of relevant Wikipedia into more than 115 languages lead to these articles being read nearly 100 million times that year. Access to Wikipedia without data charges is also available in over 50 countries via the Wikipedia Zero project, covering more than 300 million people. The offline medical Wikipedia app and Internet-in-a-box initiatives offer greater accessibility to those with limited connectivity. With over half of the world’s population not online, and many more with only intermittent access, these efforts are critical.

Wikipedia and the open access movement strengthen each other

Wikipedia is an encyclopedia, and therefore can only summarise existing knowledge. It therefore depends on citing reliable and verifiable reference sources to support its statements. Since it is editable by anyone, it is particularly important that anyone be able to cross-check the stated ‘facts’. Indeed, Wikipedia is the 6th highest referrer of DOI links (the unique hyperlinks assigned to academic articles).

However, most Wikipedia readers (and many of its writers) do not have access to paywalled articles. How then can references be checked? Some journals provide access to Wikipedians through the Wikipedia Resource Library. This allows details within paywalled sources to be duly summarised and distributed, but it’s an imperfect solution. Readers wanting to check a source or read deeper into a subject hit the wall, and images can’t be easily replicated. Wikipedia articles commonly cite open access articles, however there are often no open access alternatives to paywalled articles. Currently, there is no perfect solution for which sources to cite, but any efforts that strengthen open access benefit the encyclopedia.

What can be done to help?

Any advances in the open access movement aid Wikipedia, as well as more targeted efforts.

On an individual level, teaching people how to directly edit Wikipedia enables them to get involved on the ground-level. There are widespread Australian examples, including universities, conferences, libraries, and  societies across the country. Similar events in New Zealand have been hosted by Royal Society Te Apārangi and Whanganui museum. The editing interface has been updated to be as easy to use as a Word document. People may contribute for a specific event (an edit-a-thon), or become regular contributors. The writer community organises itself into groups  called ‘WikiProjects’ with shared topic interests. Efforts include adding or improving text, copy-editing, reviewing new edits, and adding images or other media.

Encouraging professional bodies to formally recognise Wikipedia editing as a service to the academic community and wider world will help legitimize it as a worthwhile use of time by busy professionals. Greater involvement by subject experts can improve Wikipedia’s quality. As yet, no Australian or New Zealand funding body formally recognises Wikipedia editing for grant or fellowship applications.

We also strongly support the expansion of dual-publishing of peer reviewed articles by academic journals (e.g. by PLOS, Gene, and Wiki.J.Med). This process creates a citable ‘version of record’ in the journal (providing academic credit for the authors) and the content is then used to create or overhaul the relevant Wikipedia pages. Through Wikipedia, health professionals can massively impact public health literacy (even obscure Wikipedia pages usually get hundreds or thousands of views per day). Academics similarly gain a public impact that is matched by few other platforms. In return, the encyclopedia benefits from the accurate and expert-reviewed information and the journal gains greater exposure.

Larger groups and organisations can also be mobilised to contribute to Wikipedia as an open access outlet. For example, Blausen Medical and Osmosis.org have contributed galleries of open access images and videos, which are used to illustrate the encyclopedia. Institutions such as the Cochrane, Cancer research UK, and Consumer Reports have teamed up with experienced Wikipedians and trained their members to add information and references to relevant Wikipedia articles. Journals can also be encouraged to release their back-catalogues under open access licenses, unlocking vital sources. Studies at Australia’s Monash University also recommended integrating Wikipedia editing into university courses, and several universities, such as the University of Sydney, do just this.  Even database services can integrate their data into Wikipedia’s structured knowledge database, WikiData (e.g. on genes and RNA families).

By Marcos Vinicius de Paulo (CC BY-SA 3.0), via Wikimedia Commons

The big picture

Although the recent articles in Science and JECH focused on the biomedical field, these are examples of a much wider phenomenon. For instance, there have been several ongoing collaborations between Galleries, Libraries and Museums around the world to add their knowledge to Wikipedia under open access licenses.

Wikipedia also has the potential to be a knowledge access platform for the 4 billion people who are not currently online. Its open license allows people to translate, build upon, and distribute its content in new and innovative ways with no requirements beyond attribution and releasing what they create under a similar license.

Wikipedia and the open access movement are already intertwined. Open access publishing provides information needed for growing, improving and updating Wikipedia. Meanwhile, Wikipedians search, summarise and combine that vast sea of information into free articles. Each benefits from the strengths of the other, and can be helped by specific collaboration efforts.

The Wikimedia Foundation, the organisation that hosts Wikipedia, is currently formulating its strategy through to 2030 and has identified collaboration with the wider knowledge ecosystem as one of its key themes.

References:

Shafee, Thomas; Masukume, Gwinyai; Kipersztok, Lisa; Das, Diptanshu; Häggström, Mikael; Heilman, James (2017-10-29). “The evolution of Wikipedia’s medical content: past, present and future”. Journal of Epidemiology and Community Health. 71 (10). doi:10.1136/jech-2016-208601.

Shafee, Thomas; Mietchen, Daniel; Su, Andrew I. (2017-08-11). “Academics can help shape Wikipedia”. Science. 357 (6351): 557–558. doi:10.1126/science.aao0462.

Lead image (white books):   Michael Mandiberg (CC BY-SA 4.0), via Wikimedia Commons

This work is licensed by AOASG under a Creative Commons Attribution 4.0 International License.

Competing interests:

All authors have contributed to Wikipedia articles, are current participants in WikiProject Medicine, and are on the editorial board of WikiJournal of Medicine. Thomas Shafee is on the editorial board of PLOS Genetics. James Heilman is a former and current member of the Wikimedia Foundation board of trustees. The authors do not receive financial compensation for their contributions to these projects.

Follow the authors on Twitter:

Gwinyai Masukume
James Heilman
Diptanshu Das